Feature: Polynomials and rational functions #469
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/*
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* Copyright 2018-2021 KMath contributors.
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* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
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*/
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/*
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* Copyright 2018-2021 KMath contributors.
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* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
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*/
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package space.kscience.kmath.functions
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import space.kscience.kmath.operations.Ring
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/**
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* Returns a [ListPolynomial] instance with given [coefficients]. The collection of coefficients will be reversed if
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* [reverse] parameter is true.
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*/
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@Suppress("FunctionName")
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public fun <C> ListPolynomial(coefficients: List<C>, reverse: Boolean = false): ListPolynomial<C> =
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ListPolynomial(with(coefficients) { if (reverse) reversed() else this })
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/**
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* Returns a [ListPolynomial] instance with given [coefficients]. The collection of coefficients will be reversed if
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* [reverse] parameter is true.
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*/
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@Suppress("FunctionName")
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public fun <C> ListPolynomial(vararg coefficients: C, reverse: Boolean = false): ListPolynomial<C> =
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ListPolynomial(with(coefficients) { if (reverse) reversed() else toList() })
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public fun <C> C.asListPolynomial() : ListPolynomial<C> = ListPolynomial(listOf(this))
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// Waiting for context receivers :( FIXME: Replace with context receivers when they will be available
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@Suppress("FunctionName")
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public fun <C> ListRationalFunction(numeratorCoefficients: List<C>, denominatorCoefficients: List<C>, reverse: Boolean = false): ListRationalFunction<C> =
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ListRationalFunction<C>(
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ListPolynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
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ListPolynomial( with(denominatorCoefficients) { if (reverse) reversed() else this } )
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)
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@Suppress("FunctionName")
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public fun <C, A: Ring<C>> ListRationalFunctionSpace<C, A>.ListRationalFunction(numerator: ListPolynomial<C>): ListRationalFunction<C> =
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ListRationalFunction<C>(numerator, polynomialOne)
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@Suppress("FunctionName")
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public fun <C, A: Ring<C>> A.ListRationalFunction(numerator: ListPolynomial<C>): ListRationalFunction<C> =
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ListRationalFunction<C>(numerator, ListPolynomial(listOf(one)))
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@Suppress("FunctionName")
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public fun <C, A: Ring<C>> ListRationalFunctionSpace<C, A>.ListRationalFunction(numeratorCoefficients: List<C>, reverse: Boolean = false): ListRationalFunction<C> =
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ListRationalFunction<C>(
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ListPolynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
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polynomialOne
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)
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@Suppress("FunctionName")
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public fun <C, A: Ring<C>> A.ListRationalFunction(numeratorCoefficients: List<C>, reverse: Boolean = false): ListRationalFunction<C> =
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ListRationalFunction<C>(
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ListPolynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
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ListPolynomial(listOf(one))
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)
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//context(A)
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//public fun <C, A: Ring<C>> C.asListRationalFunction() : ListRationalFunction<C> = ListRationalFunction(asListPolynomial())
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//context(ListRationalFunctionSpace<C, A>)
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//public fun <C, A: Ring<C>> C.asListRationalFunction() : ListRationalFunction<C> = ListRationalFunction(asListPolynomial())
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/*
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* Copyright 2018-2021 KMath contributors.
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* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
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*/
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package space.kscience.kmath.test.misc
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import space.kscience.kmath.misc.UnstableKMathAPI
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import space.kscience.kmath.operations.Field
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import space.kscience.kmath.operations.NumbersAddOps
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class Rational {
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companion object {
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val ZERO: Rational = Rational(0L)
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val ONE: Rational = Rational(1L)
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}
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val numerator: Long
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val denominator: Long
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internal constructor(numerator: Long, denominator: Long, toCheckInput: Boolean = true) {
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if (toCheckInput) {
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if (denominator == 0L) throw ArithmeticException("/ by zero")
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val greatestCommonDivider = gcd(numerator, denominator).let { if (denominator < 0L) -it else it }
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this.numerator = numerator / greatestCommonDivider
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this.denominator = denominator / greatestCommonDivider
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} else {
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this.numerator = numerator
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this.denominator = denominator
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}
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}
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constructor(numerator: Int, denominator: Int) : this(numerator.toLong(), denominator.toLong(), true)
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constructor(numerator: Int, denominator: Long) : this(numerator.toLong(), denominator, true)
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constructor(numerator: Long, denominator: Int) : this(numerator, denominator.toLong(), true)
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constructor(numerator: Long, denominator: Long) : this(numerator, denominator, true)
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constructor(numerator: Int) : this(numerator.toLong(), 1L, false)
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constructor(numerator: Long) : this(numerator, 1L, false)
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operator fun unaryPlus(): Rational = this
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operator fun unaryMinus(): Rational = Rational(-this.numerator, this.denominator)
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operator fun plus(other: Rational): Rational =
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Rational(
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numerator * other.denominator + denominator * other.numerator,
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denominator * other.denominator
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)
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operator fun plus(other: Int): Rational =
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Rational(
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numerator + denominator * other.toLong(),
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denominator
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)
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operator fun plus(other: Long): Rational =
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Rational(
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numerator + denominator * other,
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denominator
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)
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operator fun minus(other: Rational): Rational =
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Rational(
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numerator * other.denominator - denominator * other.numerator,
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denominator * other.denominator
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)
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operator fun minus(other: Int): Rational =
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Rational(
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numerator - denominator * other.toLong(),
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denominator
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)
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operator fun minus(other: Long): Rational =
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Rational(
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numerator - denominator * other,
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denominator
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)
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operator fun times(other: Rational): Rational =
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Rational(
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numerator * other.numerator,
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denominator * other.denominator
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)
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operator fun times(other: Int): Rational =
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Rational(
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numerator * other.toLong(),
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denominator
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)
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operator fun times(other: Long): Rational =
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Rational(
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numerator * other,
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denominator
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)
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operator fun div(other: Rational): Rational =
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Rational(
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numerator * other.denominator,
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denominator * other.numerator
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)
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operator fun div(other: Int): Rational =
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Rational(
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numerator,
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denominator * other.toLong()
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)
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operator fun div(other: Long): Rational =
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Rational(
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numerator,
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denominator * other
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)
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override fun equals(other: Any?): Boolean =
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when (other) {
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is Rational -> numerator == other.numerator && denominator == other.denominator
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is Int -> numerator == other && denominator == 1L
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is Long -> numerator == other && denominator == 1L
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else -> false
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}
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override fun hashCode(): Int = 31 * numerator.hashCode() + denominator.hashCode()
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override fun toString(): String = if (denominator == 1L) "$numerator" else "$numerator/$denominator"
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}
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@Suppress("EXTENSION_SHADOWED_BY_MEMBER", "OVERRIDE_BY_INLINE", "NOTHING_TO_INLINE")
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@OptIn(UnstableKMathAPI::class)
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object RationalField : Field<Rational>, NumbersAddOps<Rational> {
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override inline val zero: Rational get() = Rational.ZERO
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override inline val one: Rational get() = Rational.ONE
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override inline fun number(value: Number): Rational = Rational(value.toLong())
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override inline fun add(left: Rational, right: Rational): Rational = left + right
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override inline fun multiply(left: Rational, right: Rational): Rational = left * right
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override inline fun divide(left: Rational, right: Rational): Rational = left / right
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override inline fun scale(a: Rational, value: Double): Rational = a * number(value)
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override inline fun Rational.unaryMinus(): Rational = -this
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override inline fun Rational.plus(arg: Rational): Rational = this + arg
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override inline fun Rational.minus(arg: Rational): Rational = this - arg
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override inline fun Rational.times(arg: Rational): Rational = this * arg
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override inline fun Rational.div(arg: Rational): Rational = this / arg
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}
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